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Volume 9

Journal of Nanomedicine & Nanotechnology

Nanotechnology Congress 2018

October 15-17, 2018

October 15-17, 2018 Dubai, UAE

21

st

World

Nanotechnology Congress

Corrosion protection with graphene

B. Münzing

The Sixth Element (Changzhou) Materials Technology Co, Ltd, China

G

raphene, theoretically the atomic layer of graphite, can now be produced on large

industrial scale. Most of these processes generate few layer graphene. The Sixth

Element has established a proprietaryprocess tomanufacture different types of graphene

with specific designed properties for different applications. Research on how to use

graphene in coatings started already 2013 with the focus to reduce zinc in solvent based

corrosion protection coating systems. In standard primers with high zinc content, zinc

acts as cathodic sacrifice layer, as zinc is more ignoble metal, therefore protecting the

underlaying metal substrate. When the zinc is more and more oxidized, the resulting

zinc oxide is building up a barrier, which prevents the attack of the surrounding media

(water, salt) to the metal substrate. The idea now was to design a graphene type, being

electrical conductive enough to support any cathodic function of the system and being

able to act as a barrier without producing a battery cell. A further requirement was that such a graphene can be processed with

standard equipment used in the coating industry. Cooperating with an industrial partner in China, Toppen Co, the graphene

type SE1132 was developed. It is a few layer graphene with medium conductivity. Addition of 1 % SE1132 to an epoxy primer

system and reducing the zinc content to 25 % (based on dry substance) show significant improvements in salt spray testing

and water condensation testing compared to a standard zinc rich epoxy primer. The results have been confirmed by measuring

the corrosion current of such a system. Sixth Element had been granted a patent in China and US for this development. Based

on independent tests of Chinese authorities the system) is approved for off-shore applications, first applied to protect the steel

construction of an off-shore wind energy tower in 2015.

Biography

Bernhard Münzing started his career at BASF selling fibre reinforced prepregs mainly to the aerospace and sports industry. He then joined L. Brüggemann, a

medium sized chemical company, responsible for materials management and market introduction of new products. After short period as Sales Manager for a small

paint company, he worked for more than 17 years for GELITA, the leading gelatine manufacturer. Covering all potential applications areas for gelatine, he helped

customers to adopt the product during the critical phase of the BSE disease, followed by a position in business development for more than 10 years, introducing

a new product line to the food market, establishing a new production technology for a special gelatine and launching gelatine -based formulations into the metal

processing industry. Since July 2016 he is with The Sixth Element, a leading supplier of graphene products responsible for all markets outside China with focus

on EMEA region.

bernhard.muenzing@thesixtheleme

B. Münzing, J Nanomed Nanotechnol 2018, Volume 9

DOI: 10.4172/2157-7439-C9-091